JPH082585Y2 - Detector - Google Patents

Description

[Detailed Description of the Invention] [Industrial field of application] The present invention relates to a detector mounted on an interior wall surface such as a side wall or a ceiling.

[Conventional technology]

BACKGROUND ART Conventionally, in a building or the like, a detector (a temperature detector or a humidity detector) is attached to a side wall, a partition, or an indoor wall surface such as a ceiling to control air conditioning.

[Problems to be solved by the device]

However, in this case, the detector is mounted on the wall surface of the room so as to detect only the environmental condition on the room side. For this reason, if it is necessary to measure the total environmental condition including the environmental condition on the back side of the indoor wall surface, it is necessary to install another detector on the rear surface side of the indoor wall surface, which avoids cost increase. There wasn't.

[Means for solving the problem]

The present invention has been proposed in order to solve such a problem, and has a tubular body portion having openings on the front surface side and the rear surface side thereof and a flange portion formed on the front surface side opening portion of the body portion. And a housing formed with an inner step portion capable of attaching a shielding plate for partitioning the inner space to the front and the rear inside the body portion, and arranged inside the body portion on the flange portion side with respect to the inner step portion. A sensor, a cover that has a ventilation hole and covers the front opening of the housing, and a large hole slightly larger than the outer shape of the body of the housing is opened in the center of the cover, and on both sides of this large hole. A detector is provided with a plate-shaped mounting bracket having a screw hole and a bracket assembly composed of rubber magnets adhered and fixed to both edge surfaces of the mounting bracket to form a detector, which is formed on an indoor wall surface made of a magnetic material. Of the flange part of the fixed housing Through the mounting hole slightly smaller than the shape, place the bracket assembly from the indoor side to the back side of the indoor wall with the rubber magnet adsorbed to the edge of the mounting opening. Body of the housing from the inside through the mounting port, insert a screw into the hole formed in the flange of this housing corresponding to the screw hole of the bracket assembly, and screw this screw into the screw hole of the bracket assembly. As a result, the bracket assembly and the housing clamp the edge portion of the mounting opening so that the bracket can be mounted on the indoor wall surface.

[Action]

Therefore, according to this invention, the front opening of the housing is located on the indoor side, and the rear opening of the housing is located on the rear surface of the indoor wall surface. With this, when the shielding plate is attached, only the air on the indoor side can be circulated around the sensor to detect only the environment on the indoor side, while when the shielding plate is not attached, By circulating the air on the back surface side of the indoor wall surface around the sensor together with the air on the indoor side, it is possible to detect the comprehensive environmental condition including the environmental condition on the back surface side of the indoor wall surface.

Further, according to this invention, the detector can be easily and firmly attached to the indoor wall surface from the indoor side without rotating to the back surface side of the indoor wall surface. In this case, since the bracket assembly is arranged on the rear surface side of the indoor wall surface in the attracted state by the magnetic force of the rubber magnet, the bracket assembly can be mounted while being temporarily fixed so as to be slidable in the surface direction.

〔Example〕

 Hereinafter, the detector according to the present invention will be described in detail.

FIG. 1 is a side sectional view showing an embodiment of this detector attached to a ceiling, and FIG. 2 is a view in the direction of arrow A in FIG. In the figure, 1 is a housing made of flame-retardant ABS resin and 2 is also flame-retardant.
A cover made of ABS resin, 3 is a shielding plate made of a hard vinyl chloride plate (flame retardant: thickness 1 mm), and 4 is a temperature sensor 4-1 mounted on a printed circuit board. Sensor block constructed by building a predetermined circuit, 4
-2 and 4-3 are lead wires, 5 is a nylon clip,
6 is a bracket assembly, and 100 is a ceiling plate (made of iron).

As shown in the plan view of FIG. 3 and the sectional view taken along the line IV-IV of FIG. 3 in FIG. 3, the housing 1 has a cylindrical body 1-1 and a front side of the body 1-1. The flange portion 1-2 has a square shape formed in the opening. A large number of slits 1-11 are formed in the body 1-1.
An inner step portion 1-12 is formed from the front side opening of the inner peripheral wall surface of No. 1. The inner step portion 1-12 includes a peripheral edge portion 1-12a along the inner circumference of the body portion 1-1, and boss portion surfaces 1-12b and 1-12c connected to the peripheral edge portion 1-12a in the same plane. The boss faces 1-12b and 1-12c have screw holes 1-12b ₁
And 1-12c ₁ are formed. 1-12d and 1-1
2e is a protrusion for positioning.

On the other hand, the flange portion 1-2 has four inclined sides 1-
21 to 1-24 have a shallow step surface 1-25 surrounded by the inclined surfaces 1-21 to 1-24. Arc-shaped oblong holes 1-26 and 1-27 are formed through the step surface 1-25. In addition, at the four side center positions of the step surface 1-25,
Hooking holes 1-21a-from the inclined surface 1-21 to 1-24
1-24a is formed.

The cover 2 is formed in a square shape as shown in a plan view of FIG. 5 and a sectional view taken along line VI-VI in FIG. 5 in FIG. 5, and its four sides are inclined surfaces 2-1 to 2-2. It is set to -4. Vents 2-21 and 2-41 are provided in the inclined surfaces 2-2 and 2-4. In the inclined surface 2-1 (2-3), as shown in the B direction arrow view in FIG. 5 in FIG. 7, the ventilation notch 2-11 (2-31) and the hooking claw 2-12.
(2-32) is formed. A large number of ventilation slits are formed on the front surface 2-5 of the cover 2.

The shielding plate 3 is formed in a circular shape as shown in the plan view of FIG. A square hole 3-1 is formed in the center of the shield plate 3, and round holes 3-2 are formed on both sides of the square hole 3-1.
And 3-3 are opened. Further, semicircular cutouts 3-4 and 3-5 are formed at predetermined positions on the outer peripheral edge of the shield plate 3.

The sensor block 4 has a temperature sensor 4-1 and a resistor 4-5 on a printed circuit board 4-4 as shown in the side view of FIG. 9 and the arrow C direction view of FIG. Etc. are mounted and a predetermined circuit is constructed. Printed circuit board 4
Round holes 4-41 and 4-42 are opened at -4. In addition, at a predetermined position on the outer peripheral edge of the printed circuit board 4-4,
Semicircular cutouts 4-43 and 4-44 are formed.

As shown in the plan view of FIG. 11 and the side view of FIG. 12, the bracket assembly 6 includes a mounting bracket 6-1 made of hot-dip galvanized steel sheet and the mounting bracket 6-1.
Rubber magnets 6-2 and 6-adhered and fixed to both edges of the
The mounting bracket 6-1 is provided with a large diameter round hole 6-11 slightly larger than the outer diameter of the body 1-1 of the housing 1. The mounting bracket 6-1 has screw holes 6 on both sides of the round hole 6-11.
-12 and 6-13 and positioning projections 6-14 and 6-15 are formed.

Next, a method of mounting the detector on the ceiling will be described. First, as a pre-stage of mounting on the ceiling, the shielding plate 3 is dropped into the inner step portion 1-12 of the housing 1 after positioning. Then, the sensor block 4 is dropped into the dropped inner step portion 1-12 of the shield plate 3 with the temperature sensor 4-1 as an upper surface. Then, the round holes 4-41 and 4-42 of the sensor block 4, the round holes 3-2 and 3-3 of the shielding plate 3, and the screw holes 1- of the inner step portion 1-12.
12b ₁ and 1-12c ₁ are put together and a screw is inserted and screwed. Lead wires 4-2 and 4-3 of the sensor block 4
Are bundled using a nylon clip 5.

Then, the opening (mounting opening) 100 formed in the ceiling board 100-
1, the bracket assembly 6 is arranged from the indoor side to the ceiling back surface side. In this embodiment, the mounting port 100-1 is
It is slightly smaller than the outer shape of the flange 1-2 of the housing 1. At this time, the rubber magnets 6-2 and 6-3 in the bracket assembly 6 are on the lower surface side, and the rubber magnets 6-2 and 6-3 are attracted to the edge surface portion of the mounting opening 100-1.
As a result, the bracket assembly 6 is arranged on the back surface side of the ceiling in an attracted state by the magnetic force of the rubber magnets 6-2 and 6-3, and the bracket assembly 6 is temporarily fixed so as to be slidable in the surface direction. As a result, the position adjustment of the bracket assembly 6 becomes easy and the workability is improved. That is, for example, when the double-sided tape is used for temporary fixing, the bracket assembly is in a semi-fixed state due to the adhesive force of the double-sided tape, which makes position adjustment difficult. On the other hand, in this embodiment, the position of the bracket assembly 6 can be easily adjusted by setting the suction state by the magnetic force.

Then, the shield plate 3 is inserted into the round hole 6-11 of the bracket assembly 6.
And the body portion 1-1 of the housing 1 to which the sensor block 4 is attached is inserted from the indoor side through the attachment port 100-1, and is inserted into the screw hole 6-12 and 6-13 of the bracket assembly 6 in the blange portion 1-2 of the housing 1. Countersunk screws 7-1 and 7- are provided in the corresponding oval holes 1-26 and 1-27.
2 and insert the bracket assembly 6 into the screw holes 6-12 and 6
Screw to -13. As a result, the housing 1 is fixed by pressing the edge surface portion of the mounting opening 100-1 with the bracket assembly 6. Next, the shielding papers 8-1 and 8-2 are attached to the oval holes 1-26 and 1-27, and the housing 1
To the hook holes 1-21a and 1-23a of the
Fit 12 and 2-32 and attach cover 2.

In this detector, if the shield plate 3 is removed, the air on the back side of the ceiling is circulated around the temperature sensor 4-1 together with the air in the room to detect the overall temperature state including the temperature state on the back side of the ceiling. can do. That is, according to the detector of the present embodiment, when the shield plate 3 is attached, only the air on the indoor side is circulated around the temperature sensor 4-1 and only the temperature on the indoor side is detected. While you can
If the shielding plate 3 is not attached, the air on the back side of the ceiling is circulated around the temperature sensor 4-1 together with the air on the inside of the room to detect the overall temperature state including the temperature state on the back side of the ceiling. It can be carried out. As described above, according to the detector of the present embodiment, one detector can be adapted to any of the above applications only by the work of attaching / removing the shield plate 3, and the temperature condition on the ceiling back surface side is also included. In the case of detecting the comprehensive temperature condition, it is not necessary to newly provide another detector on the back side of the ceiling, and the cost increase can be avoided.

Also, with this detector, without turning to the back side of the ceiling,
The detector can be easily and firmly attached from the indoor side. In this case, since the bracket assembly 6 is arranged on the back side of the ceiling in an attracting state by the magnetic force of the rubber magnets 6-1 and 2-3, the bracket assembly 6 can be installed temporarily slidably in the plane direction. It can be performed and the workability is improved.

In the case of the present embodiment, the current wall-mounted detector 35-
The thickness has been reduced from 14 mm to 14 mm, which is a shape and design that matches the interior design and building structure. It should be noted that the color tone is preferably a light that matches the ceiling member, and the appearance shape is not limited to a square shape, and may be a circular shape or the like.

Further, in the present embodiment, the temperature sensor is mounted on the sensor block 4, but a detection element such as a temperature sensor may be used, and various sensors for detecting the environment may be used. Further, in this embodiment, the indoor wall surface is attached to the ceiling, but the indoor wall surface such as a side wall or partition may be attached.
When the bracket assembly 6 is attached to the indoor wall surface such as a side wall or a partition, the effect is obtained by arranging the bracket assembly 6 on the back surface side of the indoor wall surface in the attracted state by the magnetic force of the rubber magnets 6-2 and 6-3.

[Effect of the Invention] As described above, according to the present invention, the front opening of the housing is located on the indoor side, the rear opening of the housing is located on the rear surface of the indoor wall surface, and the shielding plate is attached. In this case, only the air on the indoor side can be circulated around the sensor to detect only the environment on the indoor side.On the other hand, if the shielding plate is not attached, the air on the back side of the indoor wall surface By circulating the air around the sensor along with the air on the indoor side, it is possible to detect the overall environmental condition including the environmental condition on the back side of the indoor wall surface.
One detector can be adapted to any of the above applications only by removing it, and when detecting the comprehensive environmental condition including the environmental condition on the back side of the indoor wall surface, separate detectors can be installed on the rear surface side of the indoor wall surface. It is not necessary to newly provide the detector of 1 above, and it is possible to avoid an increase in cost.

Further, according to the present invention, the detector can be easily and firmly attached to the indoor wall surface from the indoor side without turning to the rear surface side of the indoor wall surface. In this case, the bracket assembly is provided on the rear surface side of the indoor wall surface with the rubber assembly. Since it is placed in the attracted state by the magnetic force of the magnet, it is possible to work with the bracket assembly temporarily fixed so that it can slide in the surface direction,
Workability is improved.

[Brief description of drawings]

FIG. 1 is a side sectional view showing an embodiment of a detector according to the present invention, which is mounted on a ceiling, FIG. 2 is a view in the direction of arrow A in FIG. 1, and FIG. 3 is used for this detector. Fig. 4 is a plan view of the housing, Fig. 4 is a cross-sectional view taken along the line IV-IV in Fig. 3, Fig. 5 is a plan view of the cover used in this detector, and Fig. 6 is a cross-sectional view taken along the line VI-VI in Fig. 5. FIG. 7 is a view in the direction of arrow B in FIG. 5, FIG. 8 is a plan view of a shield plate used for this detector, FIG. 9 is a side view of a sensor block used for this detector, and FIG. 10 is FIG. 11 is a plan view of a bracket assembly used for this detector, and FIG. 12 is a side view of this bracket assembly. 1 ... Housing, 1-1 ... Body, 1-2 ... Flange, 1-12 ... Inner step, 1-26, 1-27 ... Oval hole, 2
...... Cover, 3 ...... Shield plate, 4 ...... Sensor block, 4
-1 ... Temperature sensor, 6 ... Mounting bracket assembly, 6-
1 ... Mounting bracket, 6-2,6-3 ... Rubber magnet, 6-12,6-13 ... Screw hole, 7-1,7-2 ... Screw head, 100 ... Ceiling board, 100- 1 ... Opening (mounting port).

Claims (1)

[Scope of utility model registration request] 1. A cylindrical body having openings on the front and rear sides thereof and a flange formed on the front side opening of the body, and an internal space inside the body. A housing formed with an inner step portion capable of attaching a shielding plate for partitioning the front and rear, a sensor arranged inside the body portion on the flange portion side with respect to the inner step portion, and having a vent hole, A cover that covers the front opening of the housing, and a plate with a large hole slightly larger than the outer shape of the body of the housing at the center thereof, and a screw hole formed on both sides of this large hole. -Shaped mounting bracket, and a bracket assembly composed of rubber magnets adhered and fixed to both edge surfaces of the mounting bracket, and is larger than the outer shape of the flange portion of the housing formed on the indoor wall surface made of a magnetic material. Slightly smaller mounting Through the mouth,
The bracket assembly is arranged from the indoor side to the rear surface side of the indoor wall surface in a state where the rubber magnet is attracted to the edge surface portion of the mounting opening, and the body portion of the housing is housed in the large hole of the bracket assembly. Insert from the inside through the mounting port, insert a screw into a hole formed in the flange portion of the housing corresponding to the screw hole of the bracket assembly, and screw the screw into the screw hole of the bracket assembly. A detector mounted on the indoor wall surface by pinching the edge portion of the mounting opening between the bracket assembly and the housing.